Hybrid density functional theory study of Cu(In1−xGax)Se2 band structure for solar cell application: AIP Advances: Vol 4, No 8
Energies | Free Full-Text | Numerical Optimization of Gradient Bandgap Structure for CIGS Solar Cell with ZnS Buffer Layer Using Technology Computer-Aided Design Simulation | HTML
Efficiency enhancement of ultrathin CIGS solar cells by optimal bandgap grading
CIGS cell efficiency and band gap of (Zn,Mg)O buffer layers deposited... | Download Scientific Diagram
Schematic of (a) typical structure and (b) energy band diagram of CIGS... | Download Scientific Diagram
Silicon heterojunction-based tandem solar cells: past, status, and future prospects
CIGS absorber layer with double grading Ga profile for highly efficient solar cells - ScienceDirect
An investigation into the effects of band gap and doping concentration on Cu(In,Ga)Se2 solar cell efficiency | SpringerPlus | Full Text
Energies | Free Full-Text | Optimum Band Gap Energy of ((Ag),Cu)(InGa)Se2 Materials for Combination with NiMo–NiO Catalysts for Thermally Integrated Solar-Driven Water Splitting Applications | HTML
Copper-Indium-Gallium-diSelenide (CIGS) Nanocrystalline Bulk Semiconductor as the Absorber Layer and Its Current Technological Trend and Optimization | IntechOpen
Phys. Rev. Applied 11, 054013 (2019) - Evidence of Limiting Effects of Fluctuating Potentials on ${V}_{\mathrm{OC}}$ of $\mathrm{Cu}(\mathrm{In},\mathrm{Ga}){\mathrm{Se}}_{2}$ Thin-Film Solar Cells
Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems
Efficiency enhancement of ultrathin CIGS solar cells by optimal bandgap grading
Band gap widening at random CIGS grain boundary detected by valence electron energy loss spectroscopy: Applied Physics Letters: Vol 109, No 15
All solution processable graded CIGS solar cells fabricated using electrophoretic deposition - RSC Advances (RSC Publishing) DOI:10.1039/C5RA26315H
Effect of the absorber layer band-gap on CIGS solar cell - ScienceDirect
![PDF] Theoretical Analysis of the Effects of Band Gaps and the Conduction Band Offset of ZnS-CIGS Layers, as Well as Defect Layer Thickness | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/e85b3676cda478cde0aa43ee906a80b2910db318/4-Figure3-1.png "PDF] Theoretical Analysis of the Effects of Band Gaps and the Conduction Band Offset of ZnS-CIGS Layers, as Well as Defect Layer Thickness | Semantic Scholar")
PDF] Theoretical Analysis of the Effects of Band Gaps and the Conduction Band Offset of ZnS-CIGS Layers, as Well as Defect Layer Thickness | Semantic Scholar
Effect of the absorber layer band-gap on CIGS solar cell - ScienceDirect
Shockley–Queisser limit - Wikipedia
High open-circuit voltages in lead-halide perovskite solar cells: experiment, theory and open questions | Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
Required CIGS and CIGS/Mo Interface Properties for High-Efficiency Cu(In, Ga)Se2 Based Solar Cells
The band gap E g as a function of the composition of CIGS compounds... | Download Scientific Diagram
![PDF] Theoretical Analysis of the Effects of Band Gaps and the Conduction Band Offset of ZnS-CIGS Layers, as Well as Defect Layer Thickness | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/e85b3676cda478cde0aa43ee906a80b2910db318/2-Figure1-1.png "PDF] Theoretical Analysis of the Effects of Band Gaps and the Conduction Band Offset of ZnS-CIGS Layers, as Well as Defect Layer Thickness | Semantic Scholar")
PDF] Theoretical Analysis of the Effects of Band Gaps and the Conduction Band Offset of ZnS-CIGS Layers, as Well as Defect Layer Thickness | Semantic Scholar
Energies | Free Full-Text | Optimum Band Gap Energy of ((Ag),Cu)(InGa)Se2 Materials for Combination with NiMo–NiO Catalysts for Thermally Integrated Solar-Driven Water Splitting Applications | HTML
Wide‐gap (Ag,Cu)(In,Ga)Se2 solar cells with different buffer materials—A path to a better heterojunction - Keller - 2020 - Progress in Photovoltaics: Research and Applications - Wiley Online Library
Copper-Indium-Gallium-diSelenide (CIGS) Nanocrystalline Bulk Semiconductor as the Absorber Layer and Its Current Technological Trend and Optimization | IntechOpen
